吹胀式平板集热/蒸发器流道结构仿真分析及实验研究  

作　　者：胡宏颢 黄理浩[1] 陶乐仁[1] Honghao Hu;Lihao Huang;Leren Tao(Department of Energy and Power Engineering,University of Shanghai for Science and Technology,Shanghai)

机构地区：[1]上海理工大学能源与动力工程学院,上海

出　　处：《建模与仿真》2024年第3期2069-2078,共10页Modeling and Simulation

摘　　要：基于Fluent流体力学仿真软件,对蛇形、矩形以及六边形三种流道单元进行数值模拟,得到了各自对应的流道单元温度场与压力场分布云图。仿真结果表明:相较于矩形流道和传统的蛇形流道而言,六边形流道拥有更好的传热性能和更小的流动压力损失,温度分布也更均匀,采用该结构可以使集热/蒸发器表面平均温度降低。除了采用数值模拟方法之外,集热/蒸发器流道结构的研究还需要结合实验来看,本文采用控制变量法对不同流道结构下的热泵系统实际性能进行测试分析。实验结果表明:与矩形和蛇形两种流道结构相比,采用六边形流道结构的集热/蒸发器可以有效提高系统的制热COP和集热效率,分别提高了6.1%、16.4%和7.4%、20.6%。综合来讲,六边形流道结构是最优结构,该研究可为集热/蒸发器的结构优化提供借鉴。Based on Fluent fluid dynamics simulation software,three types of flow channel cells,namely,serpentine,rectangular and hexagonal,were numerically simulated,and the temperature and pressure field distributions of the corresponding flow channel cells were obtained.The simulation results indicate that the hexagonal flow channel owns better Heat transfer property,smaller flow pressure loss and more uniform temperature distribution than the rectangular flow channel and the traditional serpentine flow channel,and the use of this structure can reduce the average temperature of the collector/evaporator surface.In addition to using numerical simulation methods,the study of collector/evaporator flow channel structures needs to be viewed in conjunction with experiments.In this paper,the control variable method is used to test and analyze the actual performance of the heat pump system under different flow channel structures.The experimental results show that the collector/evaporator with hexagonal flow channel structure can effectively improve the system’s heating COP and collector efficiency by 6.1%,16.4%and 7.4%,20.6%,respectively,compared with the two flow channel structures of rectangle and serpentine.In general terms,the hexagonal flow channel structure is the prime structure,and this study can provide a reference for the structure optimization of the collector/evaporator.

关 键 词：数值模拟 集热/蒸发器 流道结构 制热COP 集热效率 

分 类 号：TB6[一般工业技术—制冷工程]